Future of Healthcare. Healthcare as an industry is changing through technology, medical and research innovations, physician reform and hospital re-organizations. Dr. David Samadi will explore long term issues, debates innovations directly influencing the healthcare industry and what both healthcare professionals and patients need to know.
It borders on the inexplicable. With all that we know about the causes of heart attacks, with all of the public health awareness and school education initiatives, we are still killing ourselves with bad habits.
Read MoreAcute sleep loss in humans is associated with increased appetite and insulin insensitivity, while chronically sleep-deprived individuals are more likely to develop obesity, metabolic syndrome, type 2 diabetes, and cardiovascular disease.
Read MoreMany of us have experienced hangovers, but have you ever really stopped to think what it is that you are going through?
Read MoreIf getting enough sleep seems to be an elusive stranger in the night resulting in tiredness and irritability the next day, add to this another consequence – a bigger waistline.
Read MoreApril is Autism Awareness Month, a good opportunity to reflect on the notable progress made by researchers, as well as the critical importance of building on this success and advancing the science much further.
Read MoreTwo of the most common chronic diseases which people are medicated for are heart disease and diabetes. Let’s explore how being on medications for these diseases could be affecting you, and not just by treating your disease.
Read MoreLittle known scary medical fact: More than 25% of the people on the national US waiting list for a heart will die before receiving one.
Read MoreThe United States is currently in the midst of an epidemic of prescription opioid overdose. We are killing ourselves with painkillers.
Read MoreUsing a custom-designed 3D printer, a team of researchers have just proven that it is feasible to print living tissue structures to replace injured or diseased tissue in patients!
Read MoreResearchers at Massachusetts General Hospital (MGH) have just announced that they have taken the first steps toward bio-engineering a human heart.
Read MoreStudy says that women need more sleep than men because their brains are more complex
Read MoreIf untreated and not recognized, endocarditis can be life-threatening and lead to heart failure.
Read MoreThe hand holding the scalpel in operating rooms around the country is more likely to be made of stainless steel and titanium than flesh and blood.
Read MoreDrugs already in everyday use to treat psychosis or depression may also be used to defeat deadly and emerging viruses.
Read MoreAccording to the legends, the conquistador Ponce De Leon went searching for the Fountain of Youth in the mythical land of Bimini and all he found was Florida. His failure has not dampened the spirits of scientists who are dedicating their careers to reversing aging.
Along with death and taxes, growing old has always been one of those things we could count on. And that's unlikely not to change in, well, our lifetimes. But medical researchers are making significant strides in our understanding of just what is happening inside our bodies that triggers and enables the aging process.
All things being equal, how long will you live? Many researchers believe genetics to be the most heavily weighted variable. As you may have inherited your mother's blue eyes, so too can you thank her for your expected lifespan. A report from the Karolinska Institutet in Sweden specifically credit the mitochondrial DNA that we inherit from our mothers as a prime longevity influencer. Various studies other studies have borne out the theory that if your parents lived long lives, you will, as well.
Of course, nothing is written in stone when it comes to our time of mortal coil shedding, and more researchers are focusing on environmental factors in longevity. Aging, at its baseline, is simply cellular degeneration. The cells of our body generally do a good job of healing themselves, but over time our DNA cells will eventually accrue more damage than they can heal. Most of the irreparable damage stems from oxidative stress, which occurs when your body does not have enough antioxidants to combat the free radicals nipping at our DNA.
A recent study from the University of Cambridge drills down even more deeply. The British researchers examined the caps at the end of the DNA strands that guard our chromosomes. These are called telomeres, and they naturally shorten as we age. But should they become too short, and unable to properly safeguard the chromosomes, we become susceptible to disease and premature aging.
So what would happen if we could artificially extend the length of our telomeres? That's the thesis behind the work of a group of researchers at the Stanford University School of Medicine. They have managed to increase the length of telomeres by 10 percent through the application of modified RNA to human cells. More time and testing must pass before we will know if such a procedure can directly manipulate lifespan.
Another approach to chasing off the Grim Reaper has scientists targeting mitochondria. These are the parts of the cell which oxidize glucose and in turns provides the cell with energy. But, researchers at the Institute for Aging at Newcastle University in the UK discovered that if they removed the mitochondria from aging cells, a cellular rejuvenation process was triggered.
All this research is promising, but don't put your treadmill up on Ebay just yet. Another way (maybe the best one?) to slow or reverse the aging process is to simply run. Research published in PLOS One indicates that just running several times a week may slow the aging process for older adults.
New research is indicating that dried plums could protect you from bone loss caused by ionizing radiation.
Radiation from the lower part of the electromagnetic spectrum surrounds us;we're practically bathing in it. Visible light, magnetic waves, radio waves, lasers – these are a pervasive, if invisible, part of all our lives.
At the higher, ultraviolet end of that spectrum dwell gamma rays, X-rays and other ionizing forms of radiation, and our cohabitation with these is not always as amicable. By definition, ionizing radiation packs enough energy to strip away electrons from other atoms. And although these forms of radiation certainly have their uses and roles in modern life, it all comes at a cost of some personal wear and tear. Not least among these concerns is bone loss.
Bone loss can lead to osteoporosis, a disease in which the bones become more fragile and more prone to breaking. It is estimated that osteoporosis is responsible for more than 8.9 million fractures worldwide each year.
"Bone loss caused by ionizing radiation is a potential health concern for those in occupations or in situations that expose them to radiation," explains Dr. Nancy Turner, who is the co-author of a new study conducted by the Department of Nutrition and Food Science at Texas A&M University. But she and her colleagues may have an answer, and it might already be in your kitchen cabinet.
The researchers discovered that dried plum was an effective agent for reducing radiation-related bone damage as well as preventing later bone loss induced by ionizing radiation.
"Dried plums contain biologically active components that may provide effective interventions for loss of structural integrity caused by radiotherapy or unavoidable exposure to space radiation incurred over long-duration spaceflight," Dr. Turner noted.
The study concluded that inclusion of dried plums in the diet may prevent the skeletal effects of radiation exposures either in space or here on Earth.
Good news for astronauts – and cancer patients undergoing radiotherapy, radiation workers and victims of nuclear accidents, among others.
The popularity of the vaginal seeding procedure has never been more popular, but exactly how safe is it? A recent discussion in the British Medical Journal casts a wary eye on the whole business.
Vaginal seeding refers to the procedure whereby a child born via a Cesarean section is swabbed shortly after birth with vaginal fluid. The intention is for the newborn to benefit from the vaginal microbiota.
Microbiota are the communities of microbes that colonize your body. These microbes actually outnumber your own cells 10 to 1. The key point here is that these complex communities are quite different from one body part to another. And characteristic differences in the microbiota are associated with various diseases. Studies have shown that early-life microbiota play a role in the developing immune system. Consequently, interest has been generated in the potential for manipulating our bodies' microbiota to promote health and treat disease.
The microbiota of the skin of a newborn baby born via Cesarean section most closely resembles that of the mother's skin. A vaginally-delivered baby, however, has skin microbiota that resembles the mother's vagina.
What's the difference? Nothing concrete, except that some studies have shown that babies delivered by Cesarean section have an increased risk of asthma, obesity, and autoimmune disease later in life. And we do know that our microbiota play a role in these conditions.
So, better safe than sorry, right? If the simple and inexpensive procedure of swabbing a newborn with Mom's vaginal fluid has even a slight chance of heading off some nasty ailments forty years later, why wouldn't you?
To start with, the vagina can carry pathogens that are neither screened for nor symptomatic in Mom, but can have serious effects on her child. For example, up to 30% of pregnant women are known to carry group B streptococcus, which is one of the most common causes of bacterial blood stream infections in babies. Other possible pathogens include the herpes simplex virus, Neisseria gonorrhoeae, and Chlamydia trachomatis. These last two can cause a form of neonatal conjunctivitis.
The authors of the British Medical Journal piece are of the opinion that “encouraging breastfeeding and avoiding unnecessary antibiotics may be much more important than worrying about transferring vaginal fluid on a swab." Given that we are many years away from the results of any kind of research that might conclude there is any concrete benefit, we'd had to agree.
